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Citations & References (18)
Invitrogen™
Epidermal Growth Factor, Fluorescein Conjugate (Fluorescein EGF)
We offer several conjugates of epidermal growth factor that are useful for the detection of EGF receptor in cells. FluorescentlyRead more
| Catalog Number | Quantity |
|---|---|
| E3478 | 20 μg |
Catalog number E3478
Price (USD)
-
Quantity:
20 μg
We offer several conjugates of epidermal growth factor that are useful for the detection of EGF receptor in cells. Fluorescently labeled EGF has enabled scientists to investigate receptor-membrane interactions, study receptor distribution, calculate rate constants for the interaction of EGF with its receptor, and more. The conjugates incorporating fluorescein (FITC), Oregon Green™ 514, and tetramethylrhodamine were constructed with the dye directly attached to EGF. The conjugates of EGF with Alexa Fluor™ dyes and Texas Red™ dye are complexes of the dye–streptavidin molecule and biotinylated EGF. The biotinylated conjugates utilize biotin-XX, which contains a long spacer arm designed to enhance the probe’s affinity for the EGF receptor.
Epidermal Growth Factor Conjugate Specifications:
• EGF molecule: 53 amino acids, MW=6,045 Da
• Label (Ex/Em): Fluorescein (∼494/518 nm)
• Number of fluorophore molecules on each EGF molecule: 1
• Fluorescence is typically monitored using a flow cytometer, fluorescence microscope, or fluorimeter
Find More Receptor Binding and Phagocytosis Probes
We offer a number of fluorescently labeled probes for studying receptor-mediated endocytosis, membrane markers for endocytosis and exocytosis, and methods for detecting internalized fluorescent ligands. Review Probes for Following Receptor Binding and Phagocytosis—Section 16.1 in the Molecular Probes™ Handbook for more information on these products.
For Research Use. Not for human or animal therapeutic or diagnostic use.
Epidermal Growth Factor Conjugate Specifications:
• EGF molecule: 53 amino acids, MW=6,045 Da
• Label (Ex/Em): Fluorescein (∼494/518 nm)
• Number of fluorophore molecules on each EGF molecule: 1
• Fluorescence is typically monitored using a flow cytometer, fluorescence microscope, or fluorimeter
Find More Receptor Binding and Phagocytosis Probes
We offer a number of fluorescently labeled probes for studying receptor-mediated endocytosis, membrane markers for endocytosis and exocytosis, and methods for detecting internalized fluorescent ligands. Review Probes for Following Receptor Binding and Phagocytosis—Section 16.1 in the Molecular Probes™ Handbook for more information on these products.
For Research Use. Not for human or animal therapeutic or diagnostic use.
For Research Use Only. Not for use in diagnostic procedures.
Specifications
Detection MethodFluorescence
Label or DyeClassic Dyes
Quantity20 μg
Shipping ConditionWet Ice
FormSolid
Product TypeGrowth Factor
Unit SizeEach
Contents & Storage
Store in freezer (-5 to -30°C) and protect from light.
Citations & References (18)
Citations & References
Abstract
Visualization of epidermal growth factor (EGF) receptor aggregation in plasma membranes by fluorescence resonance energy transfer. Correlation of receptor activation with aggregation.
Journal:J Biol Chem
PubMed ID:2498317
'Fluorescence resonance energy transfer between epidermal growth factor (EGF) molecules, labeled with fluorescent reporter groups, was used as a monitor for EGF receptor-receptor interactions in plasma membranes isolated from human epidermoid A431 cells. Epidermal growth factor molecules labeled at the amino terminus with fluorescein isothiocyanate served as donor molecules in
The interaction of epidermal growth factor with its receptor in A431 cell membranes: a stopped-flow fluorescence anisotropy study.
Journal:Biochemistry
PubMed ID:7578056
'We describe a quantitative examination of the interaction of epidermal growth factor (EGF) with the EGF receptor using A431 cell membrane vesicles as a receptor source. Using T-format steady-state fluorescence anisotropy detection coupled with stopped-flow mixing, we measured the association and EGF-induced dissociation kinetics of fluorescein 5-isothiocyanate-labeled mEGF (FITC-EGF) with
Electric field-directed cell motility involves up-regulated expression and asymmetric redistribution of the epidermal growth factor receptors and is enhanced by fibronectin and laminin.
Journal:Mol Biol Cell
PubMed ID:10198071
'Wounding corneal epithelium establishes a laterally oriented, DC electric field (EF). Corneal epithelial cells (CECs) cultured in similar physiological EFs migrate cathodally, but this requires serum growth factors. Migration depends also on the substrate. On fibronectin (FN) or laminin (LAM) substrates in EF, cells migrated faster and more directly cathodally.
Heterogeneity of epidermal growth factor binding kinetics on individual cells.
Journal:Biophys J
PubMed ID:9251825
'Binding of fluorescein-conjugated epidermal growth factor (EGF) to individual A431 cells at 4 degrees C is measured by a quantitative fluorescence imaging technique. After background fluorescence and cell autofluorescence photobleaching corrections, the kinetic data are fit to simple models of one monovalent site and two independent monovalent sites, both of
c-Jun N-terminal kinase 2 (JNK2) enhances cell migration through epidermal growth factor substrate 8 (EPS8).
Journal:J Biol Chem
PubMed ID:21357683
Membrane-bound receptors induce biochemical signals to remodel the actin cytoskeleton and mediate cell motility. In association with receptor tyrosine kinases, several downstream mitogen-induced kinases facilitate cell migration. Here, we show a role for c-Jun N-terminal kinase 2 (JNK2) in promoting mammary cancer cell migration through inhibition of epidermal growth factor